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路径: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\python\data_members.hpp
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// Copyright David Abrahams 2002. // Distributed under the Boost Software License, Version 1.0. (See // accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) #ifndef DATA_MEMBERS_DWA2002328_HPP # define DATA_MEMBERS_DWA2002328_HPP # include
# include
# include
# include
# include
# include
# include
# include
# include
# include
# include
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# if BOOST_WORKAROUND(__MWERKS__, BOOST_TESTED_AT(0x3003)) # include
# endif # include
# include
# include
# include
namespace boost { namespace python { // // This file defines the make_getter and make_setter function // families, which are responsible for turning pointers, references, // and pointers-to-data-members into callable Python objects which // can be used for attribute access on wrapped classes. // namespace detail { // A small function object which handles the getting and setting of // data members. template
struct member { public: member(Data Class::*which) : m_which(which) {} Data& operator()(Class& c) const { return c.*m_which; } void operator()(Class& c, typename value_arg
::type d) const { c.*m_which = d; } private: Data Class::*m_which; }; // A small function object which handles the getting and setting of // non-member objects. template
struct datum { public: datum(Data *which) : m_which(which) {} Data& operator()() const { return *m_which; } void operator()(typename value_arg
::type d) const { *m_which = d; } private: Data *m_which; }; // // Helper metafunction for determining the default CallPolicy to use // for attribute access. If T is a [reference to a] class type X // whose conversion to python would normally produce a new copy of X // in a wrapped X class instance (as opposed to types such as // std::string, which are converted to native Python types, and // smart pointer types which produce a wrapped class instance of the // pointee type), to-python conversions will attempt to produce an // object which refers to the original C++ object, rather than a // copy. See default_member_getter_policy for rationale. // template
struct default_getter_by_ref : mpl::and_< mpl::bool_< to_python_value< typename value_arg
::type >::uses_registry > , indirect_traits::is_reference_to_class< typename value_arg
::type > > { }; // Metafunction computing the default CallPolicy to use for reading // data members // // If it's a regular class type (not an object manager or other // type for which we have to_python specializations, use // return_internal_reference so that we can do things like // x.y.z = 1 // and get the right result. template
struct default_member_getter_policy : mpl::if_< default_getter_by_ref
, return_internal_reference<> , return_value_policy
> {}; // Metafunction computing the default CallPolicy to use for reading // non-member data. template
struct default_datum_getter_policy : mpl::if_< default_getter_by_ref
, return_value_policy
, return_value_policy
> {}; // // make_getter helper function family -- These helpers to // boost::python::make_getter are used to dispatch behavior. The // third argument is a workaround for a CWPro8 partial ordering bug // with pointers to data members. It should be convertible to // mpl::true_ iff the first argument is a pointer-to-member, and // mpl::false_ otherwise. The fourth argument is for compilers // which don't support partial ordering at all and should always be // passed 0L. // #if BOOST_WORKAROUND(__EDG_VERSION__, <= 238) template
inline object make_getter(D& d, P& p, mpl::false_, ...); #endif // Handle non-member pointers with policies template
inline object make_getter(D* d, Policies const& policies, mpl::false_, int) { return python::make_function( detail::datum
(d), policies, mpl::vector1
() ); } // Handle non-member pointers without policies template
inline object make_getter(D* d, not_specified, mpl::false_, long) { typedef typename default_datum_getter_policy
::type policies; return detail::make_getter(d, policies(), mpl::false_(), 0); } // Handle pointers-to-members with policies template
inline object make_getter(D C::*pm, Policies const& policies, mpl::true_, int) { #if BOOST_WORKAROUND(__MWERKS__, BOOST_TESTED_AT(0x3003)) typedef typename remove_cv
::type Class; #else typedef C Class; #endif return python::make_function( detail::member
(pm) , policies , mpl::vector2
() ); } // Handle pointers-to-members without policies template
inline object make_getter(D C::*pm, not_specified, mpl::true_, long) { typedef typename default_member_getter_policy
::type policies; return detail::make_getter(pm, policies(), mpl::true_(), 0); } // Handle references template
inline object make_getter(D& d, P& p, mpl::false_, ...) { // Just dispatch to the handler for pointer types. return detail::make_getter(&d, p, mpl::false_(), 0L); } // // make_setter helper function family -- These helpers to // boost::python::make_setter are used to dispatch behavior. The // third argument is for compilers which don't support partial // ordering at all and should always be passed 0. // // Handle non-member pointers template
inline object make_setter(D* p, Policies const& policies, mpl::false_, int) { return python::make_function( detail::datum
(p), policies, mpl::vector2
() ); } // Handle pointers-to-members template
inline object make_setter(D C::*pm, Policies const& policies, mpl::true_, int) { return python::make_function( detail::member
(pm) , policies , mpl::vector3
() ); } // Handle references template
inline object make_setter(D& x, Policies const& policies, mpl::false_, ...) { return detail::make_setter(&x, policies, mpl::false_(), 0L); } } // // make_getter function family -- build a callable object which // retrieves data through the first argument and is appropriate for // use as the `get' function in Python properties . The second, // policies argument, is optional. We need both D& and D const& // overloads in order be able to handle rvalues. // template
inline object make_getter(D& d, Policies const& policies) { return detail::make_getter(d, policies, is_member_pointer
(), 0L); } template
inline object make_getter(D const& d, Policies const& policies) { return detail::make_getter(d, policies, is_member_pointer
(), 0L); } template
inline object make_getter(D& x) { detail::not_specified policy; return detail::make_getter(x, policy, is_member_pointer
(), 0L); } # if !BOOST_WORKAROUND(__EDG_VERSION__, <= 238) && !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) template
inline object make_getter(D const& d) { detail::not_specified policy; return detail::make_getter(d, policy, is_member_pointer
(), 0L); } # endif // // make_setter function family -- build a callable object which // writes data through the first argument and is appropriate for // use as the `set' function in Python properties . The second, // policies argument, is optional. We need both D& and D const& // overloads in order be able to handle rvalues. // template
inline object make_setter(D& x, Policies const& policies) { return detail::make_setter(x, policies, is_member_pointer
(), 0); } template
inline object make_setter(D const& x, Policies const& policies) { return detail::make_setter(x, policies, is_member_pointer
(), 0); } template
inline object make_setter(D& x) { return detail::make_setter(x, default_call_policies(), is_member_pointer
(), 0); } # if !(BOOST_WORKAROUND(BOOST_MSVC, <= 1300) || BOOST_WORKAROUND(__EDG_VERSION__, <= 238)) template
inline object make_setter(D const& x) { return detail::make_setter(x, default_call_policies(), is_member_pointer
(), 0); } # endif }} // namespace boost::python #endif // DATA_MEMBERS_DWA2002328_HPP
data_members.hpp
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